Your search keyword '"Notch"' showing total 11,450 results

101. Selenium Deficiency Exacerbates Hyperoxia-Induced Lung Injury in Newborn C3H/HeN Mice.

Author

Bailey-Downs, Lora C., Sherlock, Laura G., Crossley, Michaela N., Rivera Negron, Aristides, Pierce, Paul T., Wang, Shirley, Zhong, Hua, Carter, Cynthia, Burge, Kathryn, Eckert, Jeffrey V., Rogers, Lynette K., Vitiello, Peter F., and Tipple, Trent E.

Subjects

LUNGS, SELENIUM, NEWBORN infants, PREMATURE infants, LUNG injuries, BRONCHOPULMONARY dysplasia

Abstract

Extremely preterm infants are often treated with supraphysiological oxygen, which contributes to the development of bronchopulmonary dysplasia (BPD). These same infants exhibit compromised antioxidant capacities due in part to selenium (Se) deficiency. Se is essential for basal and inducible antioxidant responses. The present study utilized a perinatal Se deficiency (SeD) mouse model to identify the combined effects of newborn hyperoxia exposure and SeD on alveolarization and antioxidant responses, including the identification of affected developmental pathways. Se-sufficient (SeS) and SeD C3H/HeN breeding pairs were generated, and pups were exposed to room air or 85% O2 from birth to 14 d. Survival, antioxidant protein expression, and RNA seq analyses were performed. Greater than 40% mortality was observed in hyperoxia-exposed SeD pups. Surviving SeD pups had greater lung growth deficits than hyperoxia-exposed SeS pups. Gpx2 and 4 protein and Gpx activity were significantly decreased in SeD pups. Nrf2-regulated proteins, Nqo1 and Gclc were increased in SeD pups exposed to hyperoxia. RNA seq revealed significant decreases in the Wnt/β-catenin and Notch pathways. Se is a biologically relevant modulator of perinatal lung development and antioxidant responses, especially in the context of hyperoxia exposure. The RNA seq analyses suggest pathways essential for normal lung development are dysregulated by Se deficiency. [ABSTRACT FROM AUTHOR]

Published

2024

102. The IRE1/Xbp1 axis restores ER and tissue homeostasis perturbed by excess Notch in Drosophila.

Author

Li, Yu, Liu, Dongyue, Wang, Haochuan, Zhang, Xuejing, Lu, Bingwei, and Li, Shuangxi

Subjects

*NOTCH genes, *NOTCH proteins, *CELL determination, *UNFOLDED protein response, *EPIDERMAL growth factor, *DROSOPHILA, *HOMEOSTASIS, *ENDOPLASMIC reticulum

Abstract

Notch signaling controls numerous key cellular processes including cell fate determination and cell proliferation. Its malfunction has been linked to many developmental abnormalities and human disorders. Overactivation of Notch signaling is shown to be oncogenic. Retention of excess Notch protein in the endoplasmic reticulum (ER) can lead to altered Notch signaling and cell fate, but the mechanism is not well understood. In this study, we show that V5-tagged or untagged exogenous Notch is retained in the ER when overexpressed in fly tissues. Furthermore, we show that Notch retention in the ER leads to robust ER enlargement and elicits a rough eye phenotype. Gain-of-function of unfolded protein response (UPR) factors IRE1 or spliced Xbp1 (Xbp1-s) alleviates Notch accumulation in the ER, restores ER morphology and ameliorates the rough eye phenotype. Our results uncover a pivotal role of the IRE1/Xbp1 axis in regulating the detrimental effect of ER-localized excess Notch protein during development and tissue homeostasis. Schematic representation of Notch protein distribution in the ER. When IRE1 activity is low and ER overloaded with excess Notch protein, the ER membrane is remodeled to form enlarged structures. On the other hand, high IRE1 activity would lead to the clearance of ER-localized excess Notch protein and maintenance of ER homeostasis. EGF repeats: epidermal growth factor (EGF) repeats, NRR: negative regulatory region, NICD: Notch intracellular domain. [Display omitted] • Excess Notch causes developmental defects in Drosophila. • Exogenous Notch proteins accumulate in the ER. • The level of excess Notch in the ER is modulated by the IRE1/Xbp1 axis. • Gain-of-function of IRE1 or Xbp1-s ameliorates the rough eye phenotype caused by excess Notch. [ABSTRACT FROM AUTHOR]

Published

2024

103. NOTCH pathway mutation contributes to inferior prognosis in HBV-infected chronic lymphocytic leukemia.

Author

Shang, Chun-Yu, Bei, Li-Ye, Wu, Jia-Zhu, Sheng, Hao-Rui, Yin, Hua, Liang, Jin-Hua, Wang, Li, Li, Jian-Yong, Li, Yue, and Xu, Wei

Subjects

*CHRONIC lymphocytic leukemia, *CHRONIC leukemia, *NOTCH signaling pathway, *HEPATITIS B virus, *HEPATITIS B, *PROGNOSIS

Abstract

Chronic lymphocytic leukemia (CLL) patients with hepatitis B virus (HBV) infection have a poor prognosis, underlying mechanism remains unclear. NOTCH mutations are frequent in CLL and associated with disease progression and drug resistance. It is also reported to be associated with hepatitis infection in lymphoid malignancies. In order to investigate the relation between the NOTCH pathway and HBV-associated CLL, we studied 98 previously untreated HBV-positive CLL patients and 244 HBV-negative CLL. NOTCH mutations were more frequent in HBV-positive CLL subgroup (p = 0.033). By survival analysis, HBV infection was associated with disease progression and poor survival (p = 0.0099 for overall survival (OS) and p = 0.0446 for time-to-treatment (TTT)). Any lesions of the NOTCH pathway (NOTCH1, NOTCH2, and SPEN) aggravated prognosis. In multivariate analysis, NOTCH mutation retained an independent significance for HBV-infected patients (p = 0.016 for OS and p = 0.023 for TTT). However, HBV positive with NOTCH unmutated had no statistical difference in prognosis compared with HBV-negative patients (p = 0.1706 for OS and p = 0.2387 for TTT), which indicated that NOTCH pathway mutation contributed to inferior prognosis in HBV-infected CLL. In conclusion, a cohort of CLL patients with HBV positive displayed a worse clinical outcome and the status of the NOTCH signaling pathway might play a crucial role. [ABSTRACT FROM AUTHOR]

Published

2024

104. Analysis of Primary Chronic Lymphocytic Leukemia Cells' Signaling Pathways.

Author

Skelin, Josipa, Matulić, Maja, Milković, Lidija, Heckel, Darko, Skoko, Jelena, Škreb, Kristina Ana, Jelić Puškarić, Biljana, Kardum-Skelin, Ika, Čičin-Šain, Lipa, Radić-Krišto, Delfa, and Antica, Mariastefania

Subjects

CHRONIC lymphocytic leukemia, CHRONIC leukemia, CELL communication, CELLULAR signal transduction, GENE expression, GENE families

Abstract

Chronic lymphocytic leukemia (CLL) is a lymphoproliferative disorder characterized by a specific expansion of mature B-cell clones. We hypothesized that the disease has a heterogeneous clinical outcome that depends on the genes and signaling pathways active in the malignant clone of the individual patient. It was found that several signaling pathways are active in CLL, namely, NOTCH1, the Ikaros family genes, BCL2, and NF-κB, all of which contribute to cell survival and the proliferation of the leukemic clone. Therefore, we analyzed primary CLL cells for the gene and protein expression of NOTCH1, DELTEX1, HES1, and AIOLOS in both peripheral blood lymphocytes (PBLs) and the bone marrow (BM) of patients, as well as the expression of BCL2 and miRNAs to see if they correlate with any of these genes. BCL2 and AIOLOS were highly expressed in all CLL samples as previously described, but we show here for the first time that AIOLOS expression was higher in the PBLs than in the BM. On the other hand, NOTCH1 activation was higher in the BM. In addition, miR-15a, miR-181, and miR-146 were decreased and miR-155 had increased expression in most samples. The activation of the NOTCH pathway in vitro increases the susceptibility of primary CLL cells to apoptosis despite high BCL2 expression. [ABSTRACT FROM AUTHOR]

Published

2024

105. Mechanoresponsive ETS1 causes endothelial dysfunction and arterialization in varicose veins via NOTCH4/DLL4 signaling

Author

B.J. Sreelakshmi, C.L. Karthika, S. Ahalya, S.R. Kalpana, C.C. Kartha, and S. Sumi

Subjects

Varicose veins, Shear stress, Endothelium, Notch, ETS, Therapeutics, Cytology, QH573-671

Abstract

Varicose veins are the most common venous disorder in humans and are characterized by hemodynamic instability due to valvular insufficiency and orthostatic lifestyle factors. It is unclear how changes in biomechanical signals cause aberrant remodeling of the vein wall. Our previous studies suggest that Notch signaling is implicated in varicose vein arterialization. In the arterial system, mechanoresponsive ETS1 is a transcriptional activator of the endothelial Notch, but its involvement in sensing disrupted venous flow and varicose vein formation has not been investigated. Here, we use human varicose veins and cultured human venous endothelial cells to show that disturbed venous shear stress activates ETS1-NOTCH4/DLL4 signaling. Notch components were highly expressed in the neointima, whereas ETS1 was upregulated in all histological layers of varicose veins. In vitro microfluidic flow-based studies demonstrate that even minute changes in venous flow patterns enhance ETS1-NOTCH4/DLL4 signaling. Uniform venous shear stress, albeit an inherently low-flow system, does not induce ETS1 and Notch proteins. ETS1 activation under altered flow was mediated primarily by MEK1/2 and, to a lesser extent, by MEK5 but was independent of p38 MAP kinase. Endothelial cell-specific ETS1 knockdown prevented disturbed flow-induced NOTCH4/DLL4 expression. TK216, an inhibitor of ETS-family, prevented the acquisition of arterial molecular identity and loss of endothelial integrity in cells exposed to the ensuing altered shear stress. We conclude that ETS1 senses blood flow disturbances and may promote venous remodeling by inducing endothelial dysfunction. Targeting ETS1 rather than downstream Notch proteins could be an effective and safe strategy to develop varicose vein therapies.

Published

2024

106. Optimization on Torque Ripple Performance in ISG Motors With Fractional Slot Distributed Windings and Rotor Notching

Author

Yunfei Dai, Dong-Woo Lee, Houng-Kun Joung, and Ho-Joon Lee

Subjects

Cogging torque, interior permanent magnet synchronous motor (IPMSM), notch, non-dominated sorting genetic algorithm-II (NSGA-II), torque ripple, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

The torque ripple of an electrical machine will affect the control accuracy and trigger vibration and noise in the system. Consider only the motor itself, the torque ripple is mainly caused by the cogging torque at no load, the harmonic component of the induced electromotive force, and the saturation of the magnetic fields in load operation. In this paper, a two-stage optimization approach is used to reduce torque ripple and cogging torque for an integrated starter and generator(ISG) machine. The first level of optimization mainly adopts the appropriate pole-slot combinations, and for a machine with an initial model of 6-pole/36-slot, it is optimized to 8-pole/36-slot, which significantly reduces the cogging torque and torque ripple. The second level of optimization is rotor notching, and the notch strategy is classified into three types, Q-axis notch, magnetic bridge notch(MB notch), and Q-axis and magnetic bridge notch combination(QMC notch), and the selection of each notching parameters is analyzed respectively. For the Q-axis notch, the parameter sweep method is mainly used to determine the parameters, and for MB notch and QMC notch, the non-dominated sorting genetic algorithm-II(NSGA-II) is used for multi-objective optimization to determine the parameters. Then torque performance and total harmonic distortion(THD) are analyzed for each design. Finally, the rotor strength was analyzed. Simulation results show that suitable pole-slot combinations can reduce the cogging torque and torque ripple to a greater extent. Selection of suitable rotor notching can improve the torque performance again to some extent, in which the QMC notch design is preferred and recommended.

Published

2024

107. Non-canonical non-genomic morphogen signaling in anucleate platelets: a critical determinant of prothrombotic function in circulation

Author

Paresh P. Kulkarni, Mohammad Ekhlak, and Debabrata Dash

Subjects

Platelet activation, Notch, Sonic Hedgehog (Shh), Wnt, Non-canonical signaling, Vismodegib, Medicine, Cytology, QH573-671

Abstract

Abstract Circulating platelets derived from bone marrow megakaryocytes play a central role in thrombosis and hemostasis. Despite being anucleate, platelets express several proteins known to have nuclear niche. These include transcription factors and steroid receptors whose non-genomic functions are being elucidated in platelets. Quite remarkably, components of some of the best-studied morphogen pathways, namely Notch, Sonic Hedgehog (Shh), and Wnt have also been described in recent years in platelets, which regulate platelet function in the context of thrombosis as well as influence their survival. Shh and Notch pathways in stimulated platelets establish feed-forward loops of autocrine/juxtacrine/paracrine non-canonical signaling that helps perpetuate thrombosis. On the other hand, non-canonical Wnt signaling is part of a negative feedback loop for restricting platelet activation and possibly limiting thrombus growth. The present review will provide an overview of these signaling pathways in general. We will then briefly discuss the non-genomic roles of transcription factors and steroid receptors in platelet activation. This will be followed by an elaborate description of morphogen signaling in platelets with a focus on their bearing on platelet activation leading to hemostasis and thrombosis as well as their potential for therapeutic targeting in thrombotic disorders.

Published

2024

108. Role of cell rearrangement and related signaling pathways in the dynamic process of tip cell selection

Author

Yaru Guo, Shihan Zhang, Dandan Wang, Boon Chin Heng, and Xuliang Deng

Subjects

Tip cell, Cell rearrangement, Angiogenesis, Notch, YAP/TAZ, Medicine, Cytology, QH573-671

Abstract

Abstract Angiogenesis is a complex, highly-coordinated and multi-step process of new blood vessel formation from pre-existing blood vessels. When initiated, the sprouting process is spearheaded by the specialized endothelial cells (ECs) known as tip cells, which guide the organization of accompanying stalk cells and determine the function and morphology of the finally-formed blood vessels. Recent studies indicate that the orchestration and coordination of angiogenesis involve dynamic tip cell selection, which is the competitive selection of cells to lead the angiogenic sprouts. Therefore, this review attempt to summarize the underlying mechanisms involved in tip cell specification in a dynamic manner to enable readers to gain a systemic and overall understanding of tip cell formation, involving cooperative interaction of cell rearrangement with Notch and YAP/TAZ signaling. Various mechanical and chemical signaling cues are integrated to ensure the right number of cells at the right place during angiogenesis, thereby precisely orchestrating morphogenic functions that ensure correct patterning of blood vessels. Video Abstract

Published

2024

109. Interplay Between Zika Virus-Induced Autophagy and Neural Stem Cell Fate Determination

Author

Bindu, Pandey, Hriday Shanker, and Seth, Pankaj

Published

2024

110. Involvement of the Notch signaling system in alveolar bone resorption

Author

Aleksandar Jakovljevic, Nadja Nikolic, Lucrezia Paternò Holtzman, Pierre Tournier, Alexis Gaudin, Luca Cordaro, and Iva Milinkovic

Subjects

Notch, Alveolar bone, Resorption, Periodontitis, Apical periodontitis, Peri-implantitis, Dentistry, RK1-715

Abstract

The Notch pathway is an evolutionarily preserved signaling pathway involved in a variety of vital cell functions. Additionally, it is one of the key regulators of inflammation, and controls the differentiation and function of different cells. Moreover, it was found to be involved in skeletal development and bone remodeling process. This review provides an overview of the involvement of the Notch signaling pathway in the pathogenesis of alveolar bone resorption in different forms of pathological conditions such as apical periodontitis, periodontal disease, and peri-implantitis. In vitro and in vivo evidence have confirmed the involvement of Notch signaling in alveolar bone homeostasis. Nonetheless, Notch signaling system, along with complex network of different biomolecules are involved in pathological process of bone resorption in apical periodontitis, periodontitis, and peri-implantitis. In this regard, there is a substantial interest to control the activity of this pathway in the treatment of disorders associated with its dysregulation. This review provides knowledge on Notch signaling and outlines its functions in alveolar bone homeostasis and alveolar bone resorption. Further investigations are needed to determine whether inhibition of the Notch signaling pathways might be beneficial and safe as a novel approach in the treatment of these pathological conditions.

Published

2023

111. Torque Ripple and Electromagnetic Vibration Suppression of Fractional Slot Distributed Winding ISG Motors by Rotor Notching and Skewing

Author

Yunfei Dai and Ho-Joon Lee

Subjects

torque ripple, integrated starter and generator (ISG), radial electromagnetic force, radial electromagnetic vibration, notch, skew, Technology

Abstract

Torque ripple and radial electromagnetic (EM) vibration can lead to motor vibration and noise, which are crucial to the motor’s NVH (Noise, Vibration, and Harshness) performance. Researchers focus on two main aspects: motor body design and control strategy, employing various methods to optimize the motor and reduce torque ripple and radial EM vibration. Rotor notching and segmented rotor skewing are frequently used techniques. However, determining the optimal notch and skew strategy has been an ongoing challenge for researchers. In this paper, an 8-pole, 36-slot ISG motor is optimized using a combination of Q-axis and magnetic bridge notching (QMC notch) as well as segmented rotor skewing to reduce torque ripple and radial EM vibration. Three skewing strategies—step skew (SS), V-shape skew (VS), and zigzag skew (ZS)—along with four segmentation cases are thoroughly considered. The results show that the QMC notch significantly reduces torque ripple, while skewing designs greatly diminish radial EM vibrations. However, at 14 fe, the EM vibration frequency is close to the motor’s third-order natural frequency, leading to mixed results in vibration reduction using skewing techniques. After a comprehensive analysis of all skewing strategies, four-segment VS and ZS are recommended as the optimal approaches.

Published

2024

112. Myoblast-Derived Galectin 3 Impairs the Early Phases of Osteogenesis Affecting Notch and Akt Activity

Author

Emanuela Amore, Vittoria Cenni, Manuela Piazzi, Michele Signore, Giulia Orlandi, Simona Neri, Stefano Biressi, Rosario Barone, Valentina Di Felice, Matilde Y. Follo, Jessika Bertacchini, and Carla Palumbo

Subjects

galectins, Akt, Notch, muscle-to-bone crosstalk, myokine, proteomics, Microbiology, QR1-502

Abstract

Galectin-3 (Gal-3) is a pleiotropic lectin produced by most cell types, which regulates multiple cellular processes in various tissues. In bone, depending on its cellular localization, Gal-3 has a dual and opposite role. If, on the one hand, intracellular Gal-3 promotes bone formation, on the other, its circulating form affects bone remodeling, antagonizing osteoblast differentiation and increasing osteoclast activity. From an analysis of the secretome of cultured differentiating myoblasts, we interestingly found the presence of Gal-3. After that, we confirmed that Gal-3 was expressed and released in the extracellular environment from myoblast cells during their differentiation into myotubes, as well as after mechanical strain. An in vivo analysis revealed that Gal-3 was triggered by trained exercise and was specifically produced by fast muscle fibers. Speculating a role for this peptide in the muscle-to-bone cross talk, a direct co-culture in vitro system, simultaneously combining media that were obtained from differentiated myoblasts and osteoblast cells, confirmed that Gal-3 is a mediator of osteoblast differentiation. Molecular and proteomic analyses revealed that the secreted Gal-3 modulated the biochemical processes occurring in the early phases of bone formation, in particular impairing the activity of the STAT3 and PDK1/Akt signaling pathways and, at the same time, triggering that one of Notch. Circulating Gal-3 also affected the expression of the most common factors involved in osteogenetic processes, including BMP-2, -6, and -7. Intriguingly, Gal-3 was able to interfere with the ability of differentiating osteoblasts to interact with the components of the extracellular bone matrix, a crucial condition required for a proper osteoblast differentiation. All in all, our evidence lays the foundation for further studies to present this lectin as a novel myokine involved in muscle-to-bone crosstalk.

Published

2024

113. Prognostic and predictive impact of NOTCH1 in early breast cancer

Author

Engel, Julia, Wieder, Vanessa, Bauer, Marcus, Kaufhold, Sandy, Stückrath, Kathrin, Wilke, Jochen, Hanf, Volker, Uleer, Christoph, Lantzsch, Tilmann, Peschel, Susanne, John, Jutta, Pöhler, Marleen, Weigert, Edith, Bürrig, Karl-Friedrich, Buchmann, Jörg, Santos, Pablo, Kantelhardt, Eva Johanna, Thomssen, Christoph, and Vetter, Martina

Published

2024

114. Evaluation of rock pillar failure mechanisms under uniaxial compression: impact of joint number and joint angle

Author

Haeri, Hadi, Sarfarazi, Vahab, Zhou, Lei, Karimi Javid, Hosein, Asgari, Kaveh, and Elahi, Ali

Published

2024

115. Unified Failure Criterion Based on Stress and Stress Gradient Conditions.

Author

Kwon, Young W., Markoff, Emma K., and DeFisher, Stanley

Subjects

*FIBROUS composites, *FRACTURE mechanics, *BRITTLE materials

Abstract

Specimens made of various materials with different geometric features were investigated to predict the failure loads using the recently proposed criterion comprised of both stress and stress gradient conditions. The notch types were cracks and holes, and the materials were brittle, ductile, isotropic, orthotropic, or fibrous composites. The predicted failure stresses or loads were compared to experimental results, and both experimental and theoretically predicted results agreed well for all the different cases. This suggests that the stress and stress-gradient-based failure criterion is both versatile and accurate in predicting the failure of various materials and geometric features. [ABSTRACT FROM AUTHOR]

Published

2024

116. Thymic-Epithelial-Cell-Dependent Microenvironment Influences Proliferation and Apoptosis of Leukemic Cells.

Author

Patel, Sandesh Kumar, Zhdanovskaya, Nadezda, Sergio, Ilaria, Cardinale, Antonella, Rosichini, Marco, Varricchio, Claudia, Pace, Eleonora, Capalbo, Carlo, Locatelli, Franco, Macone, Alberto, Velardi, Enrico, Palermo, Rocco, and Felli, Maria Pia

Subjects

*THYMOCYTES, *NOTCH genes, *CELL morphology, *CELL cycle regulation, *HEMATOLOGIC malignancies, *EPITHELIAL cells, *BONE marrow

Abstract

T-cell acute lymphoblastic leukemia (T-ALL) is a hematological cancer characterized by the infiltration of immature T-cells in the bone marrow. Aberrant NOTCH signaling in T-ALL is mainly triggered by activating mutations of NOTCH1 and overexpression of NOTCH3, and rarely is it linked to NOTCH3-activating mutations. Besides the known critical role of NOTCH, the nature of intrathymic microenvironment-dependent mechanisms able to render immature thymocytes, presumably pre-leukemic cells, capable of escaping thymus retention and infiltrating the bone marrow is still unclear. An important challenge is understanding how leukemic cells shape their tumor microenvironment to increase their ability to infiltrate and survive within. Our previous data indicated that hyperactive NOTCH3 affects the CXCL12/CXCR4 system and may interfere with T-cell/stroma interactions within the thymus. This study aims to identify the biological effects of the reciprocal interactions between human leukemic cell lines and thymic epithelial cell (TEC)-derived soluble factors in modulating NOTCH signaling and survival programs of T-ALL cells and TECs. The overarching hypothesis is that this crosstalk can influence the progressive stages of T-cell development driving T-cell leukemia. Thus, we investigated the effect of extracellular space conditioned by T-ALL cell lines (Jurkat, TALL1, and Loucy) and TECs and studied their reciprocal regulation of cell cycle and survival. In support, we also detected metabolic changes as potential drivers of leukemic cell survival. Our studies could shed light on T-cell/stroma crosstalk to human leukemic cells and propose our culture system to test pharmacological treatment for T-ALL. [ABSTRACT FROM AUTHOR]

Published

2024

117. Spatially segregated defects and IGF1-responsiveness of hilar and peripheral biliary organoids from a model of Alagille syndrome.

Author

Iqbal, Afshan, Van Hul, Noemi, Belicova, Lenka, Corbat, Agustin A., Hankeova, Simona, and Andersson, Emma R.

Subjects

*INTRAHEPATIC bile ducts, *ORGANOIDS, *BILE ducts, *RNA sequencing, *TRANSCRIPTOMES, *BIOACTIVE glasses

Abstract

Background & Aims: Alagille syndrome (ALGS) manifests with peripheral intrahepatic bile duct (IHBD) paucity, which can spontaneously resolve. In a model for ALGS, Jag1Ndr/Ndr mice, this occurs with distinct architectural mechanisms in hilar and peripheral IHBDs. Here, we investigated region-specific IHBD characteristics and addressed whether IGF1, a cholangiocyte mitogen that is downregulated in ALGS and in Jag1Ndr/Ndr mice, can improve biliary outcomes. Methods: Intrahepatic cholangiocyte organoids (ICOs) were derived from hilar and peripheral adult Jag1+/+ and Jag1Ndr/Ndr livers (hICOs and pICOs, respectively). ICOs were grown in Matrigel or microwell arrays, and characterized using bulk RNA sequencing, immunofluorescence, and high throughput analyses of nuclear sizes. ICOs were treated with IGF1, followed by analyses of growth, proliferation, and death. CellProfiler and Python scripts were custom written for image analyses. Key results were validated in vivo by immunostaining. Results: Cell growth assays and transcriptomics demonstrated that Jag1Ndr/Ndr ICOs were less proliferative than Jag1+/+ ICOs. IGF1 specifically rescued survival and growth of Jag1Ndr/Ndr pICOs. Jag1Ndr/Ndr hICOs were the least proliferative, with lower Notch signalling and an enrichment of hepatocyte signatures and IGF uptake/transport pathways. In vitro ( Jag1Ndr/Ndr hICOs) and in vivo ( Jag1Ndr/Ndr hilar portal tracts) analyses revealed ectopic HNF4a+ hepatocytes. Conclusions: Hilar and peripheral Jag1Ndr/Ndr ICOs exhibit differences in Notch signalling status, proliferation, and cholangiocyte commitment which may result in cholangiocyte- to-hepatocyte transdifferentiation. While Jag1Ndr/Ndr pICOs can be rescued by IGF1, hICOs are unresponsive, perhaps due to their hepatocyte-like state and/or expression of IGF transport components. IGF1 represents a potential therapeutic for peripheral bile ducts. [ABSTRACT FROM AUTHOR]

Published

2024

118. Signaling Pathways Involved in the Neuroprotective Effect of Osthole: Evidence and Mechanisms.

Author

Singh, Lovedeep and Bhatti, Rajbir

Abstract

Neurodegenerative diseases constitute a major threat to human health and are usually accompanied by progressive structural and functional loss of neurons. Abnormalities in synaptic plasticity are involved in neurodegenerative disorders. Aberrant cell signaling cascades play a predominant role in the initiation, progress as well as in the severity of these ailments. Notch signaling is a pivotal role in the maintenance of neural stem cells and also participates in neurogenesis. PI3k/Akt cascade regulates different biological processes including cell proliferation, apoptosis, and metabolism. It regulates neurotoxicity and mediates the survival of neurons. Moreover, the activated BDNF/TrkB cascade is involved in promoting the transcription of genes responsible for cell survival and neurogenesis. Despite significant progress made in delineating the underlying pathological mechanisms involved and derangements in cellular metabolic promenades implicated in these diseases, satisfactory strategies for the clinical management of these ailments are yet to be achieved. Therefore, the molecules targeting these cell signaling cascades may emerge as useful leads in developing newer management strategies. Osthole is an important ingredient of traditional Chinese medicinal plants, often found in various plants of the Apiaceae family and has been observed to target these aforementioned mediators. Until now, no review has been aimed to discuss the possible molecular signaling cascades involved in osthole-mediated neuroprotection at one platform. The current review aimed to explore the interplay of various mediators and the modulation of the different molecular signaling cascades in osthole-mediated neuroprotection. This review could open new insights into research involving diseases of neuronal origin, especially the effect on neurodegeneration, neurogenesis, and synaptic plasticity. The articles gathered to compose the current review were extracted by using the PubMed, Scopus, Science Direct, and Web of Science databases. A methodical approach was used to integrate and discuss all published original reports describing the modulation of different mediators by osthole to confer neuroprotection at one platform to provide possible molecular pathways. Based on the inclusion and exclusion criteria, 32 articles were included in the systematic review. Moreover, literature evidence was also used to construct the biosynthetic pathway of osthole. The current review reveals that osthole promotes neurogenesis and neuronal functioning via stimulation of Notch, BDNF/Trk, and P13k/Akt signaling pathways. It upregulates the expression of various proteins, such as BDNF, TrkB, CREB, Nrf-2, P13k, and Akt. Activation of Wnt by osthole, in turn, regulates downstream GSK-1β to inhibit tau phosphorylation and β-catenin degradation to prevent neuronal apoptosis. The activation of Wnt and inhibition of oxidative stress, Aβ, and GSK-3β mediated β-catenin degradation by osthole might also be involved in mediating the protection against neurodegenerative diseases. Furthermore, it also inhibits neuroinflammation by suppressing MAPK/NF-κB-mediated transcription of genes involved in the generation of inflammatory cytokines and NLRP-3 inflammasomes. This review delineates the various underlying signaling pathways involved in mediating the neuroprotective effect of osthole. Modulation of Notch, BDNF/Trk, MAPK/NF-κB, and P13k/Akt signaling pathways by osthole confers protection against neurodegenerative diseases. The preclinical effects of osthole suggest that it could be a valuable molecule in inspiring the development of new drugs for the management of neurodegenerative diseases and demands clinical studies to explore its potential. An effort has been made to unify the varied mechanisms and target sites involved in the neuroprotective effect of osthole. The comprehensive description of the molecular pathways in the present work reflects its originality and thoroughness. The reviewed literature findings may be extrapolated to suggest the role of othole as a "biological response modifier" which contributes to neuroprotection through kinase modulatory, immunomodulatory, and anti-oxidative activity, which is documented even at lower doses. The current review attempts to emphasize the gaps in the existing literature which can be explored in the future. [ABSTRACT FROM AUTHOR]

Published

2024

119. PLS3 promotes papillary thyroid carcinoma progression by activating the Notch signaling pathway.

Author

Wang, Dongtao, Liu, Jingping, Chen, Yong, Jia, Lanning, Zhao, Ke, and He, Xianghui

Subjects

NOTCH signaling pathway, PAPILLARY carcinoma, THYROID cancer, NOTCH genes, BRAF genes, GENE expression, THYROID gland tumors

Abstract

Thyroid cancer is the most common endocrine malignancy worldwide. Although significant progress has been made in understanding the genetic and molecular alterations that drive thyroid cancer, the mechanisms underlying thyroid tumor progression remain unclear. In this study, we explored the involvement of Plastin‐3 (PLS3) in the progression of papillary thyroid cancer and elucidated the underlying molecular mechanisms. We first analyzed clinical samples from papillary thyroid cancer patients and found that PLS3 expression was significantly upregulated in tumor tissues compared to adjacent normal tissues. Moreover, high PLS3 expression was associated with advanced tumor stage and poor prognosis. Further in vitro and in vivo experiments showed that PLS3 could promote the proliferation, migration, and invasive behavior of papillary thyroid cancer cells, while PLS3 knockdown suppressed these processes. Mechanistically, we found that PLS3 promoted papillary thyroid cancer progression by activating the Notch signaling pathway. Specifically, PLS3 upregulated the expression of Notch receptors (Notch1) and downstream target gene (Hes1) in papillary thyroid cancer cells. In summary, our findings collectively indicate that PLS3 plays a pivotal role in driving the progression of papillary thyroid cancer and holds promise as a viable therapeutic target for the treatment of this disease. [ABSTRACT FROM AUTHOR]

Published

2024

120. Dead-Time Effect in Inverters on Wireless Power Transfer.

Author

Rajs, Vladimir, Herceg, Dejana, Despotović, Živadin, Bogdanović, Miroslav, Šiljegović, Mirjana, Popadić, Bane, Kiraly, Zoltan, Vizvari, Zoltan, Sari, Zoltan, Klincsik, Mihaly, Felde, Imre, Odry, Peter, and Tadic, Vladimir

Subjects

WIRELESS power transmission

Abstract

This paper presents a comprehensive analysis of the dead-time effects in wireless power transfer systems based on LCC-S topology. In these systems operating at high frequencies, the ratio of dead-time versus the operating period becomes critical, and the dead-time issue can cause certain problems regarding power quality, efficiency, and output voltage ripple. The impact of input quantities such as voltage and switching frequency on the efficiency and output power of the LCC-S-tuned WPT system was also investigated. The optimal combination of these parameters used to achieve the maximum efficiency for a target output power and to set the appropriate value of the dead time were determined by running multiple simulations using the MATLAB R2023b software platform. It was also shown that the output voltage remained unchanged with and without a load and up to 1200 ns of dead-time, which provides a simple implementation of the corresponding mathematical model. In the recommended interval of 600–1500 ns, the influence of the dead-time on the value of the output voltage amplitude is less than 10%. The validity of the proposed method was confirmed through the implementation of the experimental prototype, a 5 kW wireless power transmission system, and the obtained results were in accordance with the simulation results. [ABSTRACT FROM AUTHOR]

Published

2024

121. Role of cell rearrangement and related signaling pathways in the dynamic process of tip cell selection.

Author

Guo, Yaru, Zhang, Shihan, Wang, Dandan, Heng, Boon Chin, and Deng, Xuliang

Subjects

*CELLULAR signal transduction, *CELL differentiation, *NOTCH genes, *BLOOD vessels, *HEMATOPOIESIS, *YAP signaling proteins

Abstract

Angiogenesis is a complex, highly-coordinated and multi-step process of new blood vessel formation from pre-existing blood vessels. When initiated, the sprouting process is spearheaded by the specialized endothelial cells (ECs) known as tip cells, which guide the organization of accompanying stalk cells and determine the function and morphology of the finally-formed blood vessels. Recent studies indicate that the orchestration and coordination of angiogenesis involve dynamic tip cell selection, which is the competitive selection of cells to lead the angiogenic sprouts. Therefore, this review attempt to summarize the underlying mechanisms involved in tip cell specification in a dynamic manner to enable readers to gain a systemic and overall understanding of tip cell formation, involving cooperative interaction of cell rearrangement with Notch and YAP/TAZ signaling. Various mechanical and chemical signaling cues are integrated to ensure the right number of cells at the right place during angiogenesis, thereby precisely orchestrating morphogenic functions that ensure correct patterning of blood vessels. AKVjJR1XSkVF3wR4XnHcFx Video Abstract [ABSTRACT FROM AUTHOR]

Published

2024

122. Non-canonical non-genomic morphogen signaling in anucleate platelets: a critical determinant of prothrombotic function in circulation.

Author

Kulkarni, Paresh P., Ekhlak, Mohammad, and Dash, Debabrata

Subjects

*WNT signal transduction, *BLOOD platelet activation, *STEROID receptors, *TRANSCRIPTION factors, *CELLULAR signal transduction, *HEMOSTASIS, *BONE marrow

Abstract

Circulating platelets derived from bone marrow megakaryocytes play a central role in thrombosis and hemostasis. Despite being anucleate, platelets express several proteins known to have nuclear niche. These include transcription factors and steroid receptors whose non-genomic functions are being elucidated in platelets. Quite remarkably, components of some of the best-studied morphogen pathways, namely Notch, Sonic Hedgehog (Shh), and Wnt have also been described in recent years in platelets, which regulate platelet function in the context of thrombosis as well as influence their survival. Shh and Notch pathways in stimulated platelets establish feed-forward loops of autocrine/juxtacrine/paracrine non-canonical signaling that helps perpetuate thrombosis. On the other hand, non-canonical Wnt signaling is part of a negative feedback loop for restricting platelet activation and possibly limiting thrombus growth. The present review will provide an overview of these signaling pathways in general. We will then briefly discuss the non-genomic roles of transcription factors and steroid receptors in platelet activation. This will be followed by an elaborate description of morphogen signaling in platelets with a focus on their bearing on platelet activation leading to hemostasis and thrombosis as well as their potential for therapeutic targeting in thrombotic disorders. [ABSTRACT FROM AUTHOR]

Published

2024

123. Myosin XV is a negative regulator of signaling filopodia during long-range lateral inhibition.

Author

Clements, Rhiannon, Smith, Tyler, Cowart, Luke, Zhumi, Jennifer, Sherrod, Alan, Cahill, Aidan, and Hunter, Ginger L.

Subjects

*NOTCH genes, *FILOPODIA, *MYOSIN, *DROSOPHILA melanogaster, *FRUIT flies

Abstract

The self-organization of cells during development is essential for the formation of healthy tissues and requires the coordination of cell activities at local scales. Cytonemes, or signaling filopodia, are dynamic actin-based cellular protrusions that allow cells to engage in contact mediated signaling at a distance. While signaling filopodia have been shown to support several signaling paradigms during development, less is understood about how these protrusions are regulated. We investigated the role of the plus-end directed, unconventional MyTH4-FERM myosins in regulating signaling filopodia during sensory bristle patterning on the dorsal thorax of the fruit fly Drosophila melanogaster. We found that Myosin XV is required for regulating signaling filopodia dynamics and, as a consequence, lateral inhibition more broadly throughout the patterning epithelium. We found that Myosin XV is required for limiting the length and number of signaling filopodia generated by bristle precursor cells. Cells with additional and longer signaling filopodia due to loss of Myosin XV are not signaling competent, due to altered levels of Delta ligand and Notch receptor along their lengths. We conclude that Myosin XV acts to negatively regulate signaling filopodia, as well as promote the ability of signaling filopodia to engage in long-range Notch signaling. Since Myosin XV isoforms are present across several vertebrate and invertebrate systems, this may have significance for other long-range signaling mechanisms. [Display omitted] • Loss of MyoXV leads to more and longer signaling filopodia during bristle patterning. • MyoXV dependent disruption of signaling filopodia leads to decreased Notch signaling. • The motor activity of MyoXV regulates signaling filopodia formation. [ABSTRACT FROM AUTHOR]

Published

2024

124. RUNX transcription factors are essential in maintaining epididymal epithelial differentiation.

Author

Toriseva, Mervi, Björkgren, Ida, Junnila, Arttu, Mehmood, Arfa, Mattsson, Jesse, Raimoranta, Inka, Kim, Bongki, Laiho, Asta, Nees, Matthias, Elo, Laura, Poutanen, Matti, Breton, Sylvie, and Sipilä, Petra

Abstract

Apart from the androgen receptor, transcription factors (TFs) that are required for the development and formation of the different segments of the epididymis have remained unknown. We identified TF families expressed in the developing epididymides, of which many showed segment specificity. From these TFs, down-regulation of runt related transcription factors (RUNXs) 1 and 2 expression coincides with epithelial regression in Dicer1 cKO mice. Concomitant deletion of both Runx1 and Runx2 in a mouse epididymal epithelial cell line affected cell morphology, adhesion and mobility in vitro. Furthermore, lack of functional RUNXs severely disturbed the formation of 3D epididymal organoid-like structures. Transcriptomic analysis of the epididymal cell organoid-like structures indicated that RUNX1 and RUNX2 are involved in the regulation of MAPK signaling, NOTCH pathway activity, and EMT-related gene expression. This suggests that RUNXs are master regulators of several essential signaling pathways, and necessary for the maintenance of proper differentiation of the epididymal epithelium. [ABSTRACT FROM AUTHOR]

Published

2024

125. Targeting Signalling Pathways in Chronic Wound Healing.

Author

Bonnici, Lian, Suleiman, Sherif, Schembri-Wismayer, Pierre, and Cassar, Analisse

Subjects

*WOUND healing, *NUCLEAR factor E2 related factor, *CELLULAR signal transduction, *OLIGONUCLEOTIDES, *CHRONIC wounds & injuries, *HYPOXIA-inducible factor 1

Abstract

Chronic wounds fail to achieve complete closure and are an economic burden to healthcare systems due to the limited treatment options and constant medical attention. Chronic wounds are characterised by dysregulated signalling pathways. Research has focused on naturally derived compounds, stem-cell-based therapy, small molecule drugs, oligonucleotide delivery nanoparticles, exosomes and peptide-based platforms. The phosphoinositide-3-kinase (PI3K)/protein kinase B (AKT), Wingless-related integration (Wnt)/β-catenin, transforming growth factor-β (TGF-β), nuclear factor erythroid 2–related factor 2 (Nrf2), Notch and hypoxia-inducible factor 1 (HIF-1) signalling pathways have critical roles in wound healing by modulating the inflammatory, proliferative and remodelling phases. Moreover, several regulators of the signalling pathways were demonstrated to be potential treatment targets. In this review, the current research on targeting signalling pathways under chronic wound conditions will be discussed together with implications for future studies. [ABSTRACT FROM AUTHOR]

Published

2024

126. Detection of native, activated Notch receptors in normal human apocrine‐bearing skin and in hidradenitis suppurativa.

Author

Stabell, Siri Hansen, Renzi, Anastasia, Nilsen, Hogne Røed, Antonsen, Olaf Harald, Fosse, Johanna Hol, Haraldsen, Guttorm, and Sundnes, Olav

Subjects

*HIDRADENITIS suppurativa, *NOTCH genes, *GENE expression, *DRUG target, *SKIN biopsy, *LENTIGO

Abstract

Notch signalling has generated considerable interest as a pathogenetic factor and a drug target in a range of human diseases. The gamma‐secretase complex is crucial in the activation of Notch receptors by cleaving the intracellular domain allowing nuclear translocation. In recent years several mutations in gamma‐secretase components have been discovered in patients with familial hidradenitis suppurativa (HS). This has led to hypotheses that impaired Notch signalling could be an important driver for HS in general, not only in the monogenic variants. However, no study has examined in situ Notch activation per se in HS, and some reports with conflicting results have instead been based on expression of Notch receptors or indirect measures of Notch target gene expression. In this study we established immunostaining protocols to identify native, activated Notch receptors in human skin tissue. The ability to detect changes in Notch activation was confirmed with an ex vivo skin organ model in which signal was reduced or obliterated in tissue exposed to a gamma‐secretase inhibitor. Using these methods on skin biopsies from healthy volunteers and a general HS cohort we demonstrated for the first time the distribution of active Notch signalling in human apocrine‐bearing skin. Quantification of activated NOTCH1 & NOTCH2 revealed similar levels in non‐lesional and peri‐lesional HS to that of healthy controls, thus ruling out a general defect in Notch activation in HS patients. We did find a variable but significant reduction of activated Notch in epidermis of lesional HS with a distribution that appeared related to the extent of surrounding tissue inflammation. [ABSTRACT FROM AUTHOR]

Published

2024

127. Adult neurogenesis: a real hope or a delusion?

Author

Hussain, Ghulam, Akram, Rabia, Anwar, Haseeb, Sajid, Faiqa, Iman, Tehreem, Hyung Soo Han, Raza, Chand, and De Aguilar, Jose-Luis Gonzalez

Published

2024

128. No accelerated 20‐year hearing decline after occupational noise exposure has ceased: The HUNT study.

Author

Aarhus, Lisa, Molaug, Ina, and Engdahl, Bo

Abstract

Objectives: It has been suggested that noise exposure can accelerate hearing decline after the noise exposure has ceased. We aimed to assess long‐term hearing decline in persons with and without prior occupational noise exposure. Methods: We conducted a population‐based longitudinal study in Norway using the Trøndelag Health Study (HUNT) from 1996 to 1998 (baseline) and from 2017 to 2019 (follow‐up). The sample included 1648 participants with baseline age ≥55 years (42% men, mean age 60 years) and <5 years occupational noise exposure after baseline. We analyzed the association between occupational noise exposure before baseline and mean hearing decline between 1998 and 2018 (20‐year decline) at each frequency, adjusted for age, sex, education, and impulse noise exposure before baseline. Results: Occupational noise exposure before baseline (N = 603) was associated with baseline hearing loss, but not with later accelerated 20‐year decline, at any frequency. Noise‐exposed persons had less subsequent 20‐year decline at 3 kHz than did nonexposed. Restricting the noise‐exposed group to persons who also had a baseline Coles notch (hearing thresholds at 3, 4, or 6 kHz of 10 dB or more compared with thresholds at 1 or 2 kHz and 6 or 8 kHz; N = 211), the exposed group showed less 20‐year decline at both 3 and 4 kHz, as well as less accelerated 20‐year decline at 8 kHz, compared with the nonexposed. Conclusion: Our large long‐term longitudinal study shows no increased risk of continuing hearing decline after occupational noise exposure has ceased. The finding supports a conclusion that ear damage stops when the noise exposure is ended. [ABSTRACT FROM AUTHOR]

Published

2024

129. The mechanism of intestinal stem cells differentiation after ischemia–reperfusion injury in a rat model.

Author

Ben-Shahar, Yoav, Vasserman, Victoria, Pollak, Yulia, Kremer, Keren, and Sukhotnik, Igor

Subjects

*CELL differentiation, *REPERFUSION injury, *STEM cells, *ANIMAL disease models, *INTESTINES

Abstract

Purpose: Notch and Wnt/β-catenin signaling are responsible for regulation of intestinal stem cells (ISCs) proliferation and differentiation. The purpose of the study was to evaluate Wnt/β-catenin and Notch signaling roles in regulation of ISC differentiation following ischemia–reperfusion (IR) injury in a rat. Methods: Rats were assigned into two groups: Sham rats underwent laparotomy without vascular intervention and IR rats underwent occlusion of SMA and portal vein for 20 min followed by 48 h of reperfusion. Wnt/β-catenin and Notch-related gene expression were determined using Real-Time PCR. Enterocyte proliferation, differentiation and Wnt-related proteins were determined by immunohistochemistry. Results: IR rats demonstrated a significant decrease in β-catenin gene expression, a decrease in cyclin D1 and β-catenin positive cells in jejunum and ileum compared to Sham rats. IR rats demonstrated a significant increase in Notch-related gene expression in jejunum and ileum compared to Sham rats. The number of secretory cells was higher mainly in the jejunum and number of absorptive cells was significantly lower in jejunum and lower in ileum in IR rats compared to Sham rats. Conclusions: Intestinal stem-cell differentiation is toward secretory cells 48 h after IR injury; however, Wnt/β-catenin pathway inhibition and Notch-related gene expression stimulation suggest crosstalk between pathways. [ABSTRACT FROM AUTHOR]

Published

2023

130. Iron‐responsive element of Divalent metal transporter 1 (Dmt1) controls Notch‐mediated cell fates.

Author

Hounjet, Judith, Groot, Arjan J., Piepers, Jolanda P., Kranenburg, Onno, Zwijnenburg, Danny A., Rapino, Francesca A., Koster, Jan B., Kampen, Kim R., and Vooijs, Marc A.

Subjects

*NOTCH genes, *CANCER cell differentiation, *IRON, *WNT signal transduction, *METALS, *COLORECTAL cancer

Abstract

Notch receptor activation is regulated by the intramembrane protease γ‐secretase, which cleaves and liberates the Notch intracellular domain (Nicd) that regulates gene transcription. While γ‐secretase cleavage is necessary, we demonstrate it is insufficient for Notch activation and requires vesicular trafficking. Here, we report Divalent metal transporter 1 (Dmt1, Slc11A2) as a novel and essential regulator of Notch signalling. Dmt1‐deficient cells are defective in Notch signalling and have perturbed endolysosomal trafficking and function. Dmt1 encodes for two isoforms, with and without an iron response element (ire). We show that isoform‐specific silencing of Dmt1‐ire and Dmt1+ire has opposite consequences on Notch‐dependent cell fates in cell lines and intestinal organoids. Loss of Dmt1‐ire suppresses Notch activation and promotes differentiation, whereas loss of Dmt1+ire causes Notch activation and maintains stem‐progenitor cell fates. Dmt1 isoform expression correlates with Notch and Wnt signalling in Apc‐deficient intestinal organoids and human colorectal cancers. Consistently, Dmt1‐ire silencing induces Notch‐dependent differentiation in colorectal cancer cells. These data identify Dmt1 isoforms as binary switches controlling Notch cell fate decisions in normal and tumour cells. [ABSTRACT FROM AUTHOR]

Published

2023

131. Separable Roles for Neur and Ubiquitin in Delta Signalling in the Drosophila CNS Lineages.

Author

Kalodimou, Konstantina, Stapountzi, Margarita, Vüllings, Nicole, Seib, Ekaterina, Klein, Thomas, and Delidakis, Christos

Subjects

*UBIQUITINATION, *DROSOPHILA, *UBIQUITIN, *CATALYTIC domains, *CELL membranes, *ENDOCYTOSIS

Abstract

The execution of a Notch signal at the plasma membrane relies on the mechanical force exerted onto Notch by its ligand. It has been appreciated that the DSL ligands need to collaborate with a ubiquitin (Ub) ligase, either Neuralized or Mindbomb1, in order to exert this pulling force, but the role of ubiquitylation per se is uncertain. Regarding the Delta–Neur pair, it is documented that neither the Neur catalytic domain nor the Delta intracellular lysines (putative Ub acceptors) are needed for activity. Here, we present a dissection of the Delta activity using the Delta–Notch-dependent expression of Hey in newborn Drosophila neurons as a sensitive in vivo assay. We show that the Delta–Neur interaction per se, rather than ubiquitylation, is needed for activity, pointing to the existence of a Delta–Neur signaling complex. The Neur catalytic domain, although not strictly needed, greatly improves Delta–Neur complex functionality when the Delta lysines are mutated, suggesting that the ubiquitylation of some component of the complex, other than Delta, can enhance signaling. Since Hey expression is sensitive to the perturbation of endocytosis, we propose that the Delta–Neur complex triggers a force-generating endocytosis event that activates Notch in the adjacent cell. [ABSTRACT FROM AUTHOR]

Published

2023

132. microRNA transcriptome analysis of granulosa cells predicts that the Notch and insulin pathways affect follicular development in chickens.

Author

Shen, Manman, Wang, Mingzhu, Li, Dehui, Feng, Yuan, Qu, Liang, and Wang, Jinyu

Subjects

*NOTCH genes, *OVARIAN follicle, *GRANULOSA cells, *NOTCH signaling pathway, *TRANSCRIPTOMES, *CELL analysis, *NON-coding RNA

Abstract

MicroRNAs (miRNAs) have been documented to play critical roles in chicken reproduction. Granulosa cell (GC) development of the follicle is closely related to hierarchical follicle ordering, making it an important factor in determining laying performance. Thus, it is meaningful to mine follicular development-related miRNAs. To identify regulatory miRNAs and the biological mechanisms by which they control follicular development, we conducted small RNA sequencing of GCs isolated from prehierarchical follicles named small yellow follicle (SYFG), the smallest hierarchical follicle (F6G), and the largest hierarchical follicle (F1G). A total of 99, 196, and 110 differentially expressed miRNAs (DEMs) were identified in SYFG.vs.F6G, SYFG.vs.F1G, and F6G.vs.F1G, respectively. Of these, 22 miRNAs, including miR-223, miR-103a, miR-449c-3p, and miR-203a, were ubiquitously identified as DEMs in three stages. Target gene prediction suggested that these miRNAs are associated with the MAPK, TGF-β, and Wnt signaling pathways, which are all associated with follicular development. The Notch and insulin signaling pathways were commonly enriched in all three comparisons. RT-qPCR analysis further indicated that the expression levels of PSEN2 , which encodes an essential factor regulating Notch and insulin signaling, was significantly changed in SYFG, F6G, and F1G. The current study provides basic data and offers a new foundation for further exploration of the roles of miRNAs in follicular development in chickens. • miRNAs showed dynamic changes in granulosa cells during follicular development in chickens. • A total of 252 DEmiRNAs were identified in the three different stages of GCs, of these 22 miRNAs were found to be commonly DEs. • The predicted target genes of DE miRNAs were common enriched in Notch and Insulin signaling pathway in three comparisons. • The expression levels of PSEN2 , a key factor in the Notch and insulin signaling pathways, were significantly changed during follicular development. [ABSTRACT FROM AUTHOR]

Published

2023

133. Morphological types and morphometrical measurements of the suprascapular notch in both dry bones and human cadavers: anatomical study to improve the outcomes of the diagnostic and interventional procedures in the shoulder region.

Author

Nasr, Ashraf Youssef

Subjects

*MEDICAL cadavers, *SHOULDER, *ANATOMY, *SCAPULA, *MEDICAL personnel, *LIGAMENTS

Abstract

Understanding the anatomy of suprascapular area helps the clinicians and surgeons in management of any disability at the shoulder region. This work aimed to clear the different morphological and morphometrical types of suprascapular notch (SSN). Unknown 120 dry human scapulae of both sides and 60 formalin-embalmed cadaveric upper limbs (40 males and 20 females) were used in the present study. Three main morphological forms of SSN were reported: J, U, and V-shaped. J-shaped notch showed the highest incidence followed by U-shaped then V-shaped one. Morphometrically, type (III) notch was the most prevalent in both dry bones and cadavers, while the incidence of type (II) was the lowest form. Also, the measurements of superior transverse diameter, middle transverse diameter and vertical dimension of the different types of the notch showed no side or sex significant difference. The suprascapular foramen with ossified superior transverse scapular ligament (STSL) was seen in 5.8% of dry bones and 10% of cadaveric specimens. Fan and band-shaped ossified transverse scapular ligaments were reported. Absence of SSN was seen in 10.8% of dry bones, 7.5% of male and 10% of female specimens with left side predominance. V-shaped, absence, and ossified STSL were considered as predisposing factors of suprascapular nerve entrapment syndrome. Knowledge of the morphology and morphometric parameters of SSN is of great clinical significance for anatomists, radiologists, physiotherapists, orthopedics and neurosurgeons to perform good diagnosis and best planning for surgical or arthroscopic interventions within the shoulder region. [ABSTRACT FROM AUTHOR]

Published

2023

134. Involvement of the Notch signaling system in alveolar bone resorption.

Author

Jakovljevic, Aleksandar, Nikolic, Nadja, Paternò Holtzman, Lucrezia, Tournier, Pierre, Gaudin, Alexis, Cordaro, Luca, and Milinkovic, Iva

Subjects

ALVEOLAR process, BONE resorption, NOTCH signaling pathway, BONE growth, PERIAPICAL periodontitis, PERIODONTIUM

Abstract

The Notch pathway is an evolutionarily preserved signaling pathway involved in a variety of vital cell functions. Additionally, it is one of the key regulators of inflammation, and controls the differentiation and function of different cells. Moreover, it was found to be involved in skeletal development and bone remodeling process. This review provides an overview of the involvement of the Notch signaling pathway in the pathogenesis of alveolar bone resorption in different forms of pathological conditions such as apical periodontitis, periodontal disease, and peri-implantitis. In vitro and in vivo evidence have confirmed the involvement of Notch signaling in alveolar bone homeostasis. Nonetheless, Notch signaling system, along with complex network of different biomolecules are involved in pathological process of bone resorption in apical periodontitis, periodontitis, and peri-implantitis. In this regard, there is a substantial interest to control the activity of this pathway in the treatment of disorders associated with its dysregulation. This review provides knowledge on Notch signaling and outlines its functions in alveolar bone homeostasis and alveolar bone resorption. Further investigations are needed to determine whether inhibition of the Notch signaling pathways might be beneficial and safe as a novel approach in the treatment of these pathological conditions. [ABSTRACT FROM AUTHOR]

Published

2023

135. The effects of HPV oncoproteins on host communication networks: Therapeutic connotations.

Author

Skelin, Josipa, Luk, Ho Yin, Butorac, Dražan, Boon, Siaw Shi, and Tomaić, Vjekoslav

Subjects

HUMAN papillomavirus, TELECOMMUNICATION systems, HEAD & neck cancer, NOTCH signaling pathway, THERAPEUTIC communication, CELL communication

Abstract

Human papillomavirus (HPV) infections are a leading cause of viral‐induced malignancies worldwide, with a prominent association with cervical and head and neck cancers. The pivotal role of HPV oncoproteins, E5, E6, and E7, in manipulating cellular events, which contribute to viral pathogenesis in various ways, has been extensively documented. This article reviews the influence of HPV oncoproteins on cellular signaling pathways within the host cell, shedding light on the underlying molecular mechanisms. A comprehensive understanding of these molecular alterations is essential for the development of targeted therapies and strategies to combat HPV‐induced premalignancies and prevent their progress to cancer. Furthermore, this review underscores the intricate interplay between HPV oncoproteins and some of the most important cellular signaling pathways: Notch, Wnt/β‐catenin, MAPK, JAK/STAT, and PI3K AKT/mTOR. The treatment efficacies of the currently available inhibitors on these pathways in an HPV‐positive context are also discussed. This review also highlights the importance of continued research to advance our knowledge and enhance therapeutic interventions for HPV‐associated diseases. [ABSTRACT FROM AUTHOR]

Published

2023

136. 基于人工表面等离子体激元的小型化低通 双陷波滤波器.

Author

张 胜, 于梦杰, 解 鑫, 李大妮, 曹为为, and 程德强

Subjects

POLARITONS

Abstract

Copyright of Piezoelectrics & Acoustooptics is the property of Piezoelectric & Acoustooptic and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

137. Identifying novel molecular mechanisms underlying lateral line organ development in sterlet

Author

Campbell, Alexander and Baker, Clare

Subjects

Ampullary Organ, Bmp, CRISPR/Cas9, Development, Evolution, Lateral Line, Neuromast, Neuroscience, Notch, Signalling Pathway, Wnt

Abstract

In all fishes and aquatic-stage amphibians, lines of mechanosensory lateral line organs ('neuromasts' containing hair cells), distributed over the head and trunk, detect local water movement. Many species also have electrosensory lateral line organs that detect weak electric fields, such as those surrounding other animals. In electroreceptive non-teleost jawed fishes and amphibians, electroreceptor cells reside within 'ampullary organs' (AOs) distributed in fields flanking some or all neuromast lines on the head. Both AOs and neuromasts develop from lateral line placodes that elongate over the head to form sensory ridges. Their shared origin makes the system a useful model to investigate cell fate decisions during development. Electroreception was lost in the lineages leading to teleost ray-finned fishes and frogs, so the electrosensory (AO) vs. mechanosensory (neuromast) fate-choice cannot be studied in the standard anamniote models, zebrafish and Xenopus. To identify genes involved in AO vs. neuromast development, the lab previously used differential RNAseq in late-larval stages of a chondrostean ray-finned fish, the Mississippi paddlefish (Polyodon spathula), to generate a dataset of around 500 genes putatively enriched in lateral line organs. Candidate gene expression analysis suggested electroreceptors and hair cells are closely related cell types. To gain insight into signalling pathways potentially involved in AO and/or neuromast development, I cloned cDNA fragments of 50 signalling pathway-related genes from the paddlefish gene-set and 26 other signalling pathway-related genes selected via a candidate approach, in an experimentally tractable chondrostean, the sterlet (Acipenser ruthenus, a sturgeon). Overall, I cloned cDNA fragments of 33 genes encoding receptors, 27 encoding ligands and 16 encoding, for example, secreted inhibitors, scaffold proteins and co-receptors. In situ hybridisation identified 32 genes expressed in the developing lateral line system. Of these, five (Dner, Fgf10, Ngfr, Cbln18 and Kit) were expressed within developing neuromasts but not AOs, and four (Dll4, Axin2, Omg and Gpr52) within developing AOs but not neuromasts. (Other genes with specific expression patterns were expressed in non-lateral line structures such as gill filaments and taste buds.) I explored the Bmp signalling pathway in the most depth. I identified lateral line organ expression of genes encoding two ligands (Bmp5, Bmp4), an activin type II receptor (Acvr2a) that can complex with type I Bmp receptors, and two secreted dual-Bmp/Wnt inhibitors (Sostdc1, Apcdd1). CRISPR/Cas9-mediated mutagenesis targeting Bmp5 in F0-injected sterlet embryos led to fewer AOs forming, primarily in the posterior preopercular fields. Conversely, DMH1-mediated inhibition of Bmp signalling for 20 hours when AOs normally start to develop, led to precocious AO formation generally, plus ectopic AOs in the three dorsal-most fields. This suggested that Bmp signalling inhibits, while Bmp5 promotes, AO development.

Published

2022

138. Stem and progenitor cells in homeostatic maintenance and perturbation of the pulmonary epithelium

Author

Dabrowska, Catherine, Lee, Joo-Hyeon, and Simons, Ben

Subjects

clonal dynamics, pulmonary epithelium, basal cell, secretory cell, Red2-Onco, lung cancer, lung squamous cell carcinoma, PI3K, Notch, tracheal epithelium, distal lung, biophysical modelling, single cell, single cell RNA sequencing, trachea

Abstract

The histological changes which occur in the step-wise progression from a normal pseudostratified airway epithelium to lung squamous cell carcinoma in situ are well documented. However, the contribution of mutated tissue stem or progenitor cells to this process are poorly understood at the level of clonal resolution. Secretory cells are known progenitor cells of the pseudostratified airway epithelium, however their clonal dynamics in homeostasis are unknown. Here, I elucidate their contribution to homeostasis, and reveal they are more persistent in the epithelium than previously predicted. Single mutations cannot consistently give rise to lung squamous cell carcinoma, however why this is the case is not known. Hyperactivation of the PI3K pathway is one of the earliest events in lung squamous cell carcinoma development. As such, I generate a novel lineage tracing mouse line, Red2-PIK3CAH1047R, which allows for the simultaneous lineage tracing of PIK3CAH1047R mutant cells and tissue-sharing wild-type cells. I then initiate recombination of the reporter in a starting population of basal cells, the known stem cell of the pseudostratified airway epithelium, or secretory cells, known progenitors. I reveal that in both lineage traces, PIK3CAH1047R mutant cells can differentiate into typical lineage trajectories, although they do form larger clones than tissue sharing counterparts. Conversely, the clonal dynamics of wild-type tissue-sharing counterparts do not alter from homeostatic behaviour. These findings were confirmed with single cell RNA sequencing, which also indicates reduced signalling between SecC-derived PIK3CAH1047R mutant cells and tissue-sharing basal cells. I also performed a detailed analysis examining the ability of intralobar secretory cells with constitutive Notch signalling to contribute to the alveolar lineages after injury. Bronchiolisation of the alveoli is observed in human diseases which impair alveolar function, such as idiopathic pulmonary fibrosis. I show that constitutive Notch signalling in intralobar secretory cells allows them to leave their airway compartment, enter the alveolar region, but fail to properly differentiate. Therefore, in my doctoral studies, I make a novel contribution to the field, including: (1) defining the clonal dynamics of secretory cells in the pseudostratified airway epithelium, (2) generating and validating a novel lineage tracing mouse line, Red2-PIK3CAH1047R, (3) defining the changes induced by PIK3CAH1047R mutation in basal cells and secretory cells of the pseudostratified airway epithelium, and (4) defining the effect of constitutive Notch signalling abrogating the capacity of intralobar secretory cells to repair the alveolar epithelium.

Published

2022

139. Corrigendum: What can the common fruit fly teach us about stroke?: lessons learned from the hypoxic tolerant Drosophila melanogaster

Author

Princy S. Quadros-Mennella, Kurt M. Lucin, and Robin E. White

Subjects

hypoxia resistance, Drosophila melanogaster, oxidative stress, insulin, notch, hypoxia inducible factors, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Published

2024

140. HEMODYNAMIC CHANGES OF THE UTERINE ARTERY IN MARES WITH DIFFERENT UTERINE PATHOLOGIES

Author

Zeynep Günay Uçmak, İbrahim Kurban, and Fatih Özbezek

Subjects

Doppler ultrasonography, endometritis, intrauterine cyst, notch, Veterinary medicine, SF600-1100

Abstract

Cysts, fluid accumulation, inflammatory changes and tumors are common uterine pathologies in mares. It was aimed to investigate the change of uterine hemody­namics in mares according to uterine pathologies (endometritis or intrauterine cysts). The study contained 28 mares and the groups formed as 9 gynaecologically healthy diestrus mares (Group H), 9 mares with endometritis (Group E) and 10 mares with intra­uterine cyst (Group C). The mean uterine diameter (UD) in Group H (2.29±0.18 cm) was significantly lower than in Group C (2.97±0.19 cm) (P0.05). However, PI and RI values in Group H were significantly lower than both in Group E and Group C (P0.05). Vrednosti PI in RI v skupini H pa so bile bistveno nižje kot v skupini E in C (P

Published

2024

141. What can the common fruit fly teach us about stroke?: lessons learned from the hypoxic tolerant Drosophila melanogaster

Author

Princy S. Quadros-Mennella, Kurt M. Lucin, and Robin E. White

Subjects

hypoxia resistance, Drosophila melanogaster, oxidative stress, insulin, notch, hypoxia inducible factors, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Stroke, resulting in hypoxia and glucose deprivation, is a leading cause of death and disability worldwide. Presently, there are no treatments that reduce neuronal damage and preserve function aside from tissue plasminogen activator administration and rehabilitation therapy. Interestingly, Drosophila melanogaster, the common fruit fly, demonstrates robust hypoxic tolerance, characterized by minimal effects on survival and motor function following systemic hypoxia. Due to its organized brain, conserved neurotransmitter systems, and genetic similarity to humans and other mammals, uncovering the mechanisms of Drosophila’s tolerance could be a promising approach for the development of new therapeutics. Interestingly, a key facet of hypoxic tolerance in Drosophila is organism-wide metabolic suppression, a response involving multiple genes and pathways. Specifically, studies have demonstrated that pathways associated with oxidative stress, insulin, hypoxia-inducible factors, NFκB, Wnt, Hippo, and Notch, all potentially contribute to Drosophila hypoxic tolerance. While manipulating the oxidative stress response and insulin signaling pathway has similar outcomes in Drosophila hypoxia and the mammalian middle cerebral artery occlusion (MCAO) model of ischemia, effects of Notch pathway manipulation differ between Drosophila and mammals. Additional research is warranted to further explore how other pathways implicated in hypoxic tolerance in Drosophila, such as NFκB, and Hippo, may be utilized to benefit mammalian response to ischemia. Together, these studies demonstrate that exploration of the hypoxic response in Drosophila may lead to new avenues of research for stroke treatment in humans.

Published

2024

142. A maternal dorsoventral prepattern revealed by an asymmetric distribution of ventralizing molecules before fertilization in Xenopus laevis

Author

Aitana M. Castro Colabianchi, Nicolás G. González Pérez, Lucía F. Franchini, and Silvia L. López

Subjects

bilateral symmetry, axialization, maternal determinants, maternal asymmetries, bilaterians, notch, Biology (General), QH301-705.5

Abstract

The establishment of the embryonic dorsoventral axis in Xenopus occurs when the radial symmetry around the egg’s animal-vegetal axis is broken to give rise to the typical symmetry of Bilaterians. We have previously shown that the Notch1 protein is ventrally enriched during early embryogenesis in Xenopus laevis and zebrafish and exerts ventralizing activity through β-Catenin destabilization and the positive regulation of ventral center genes in X. laevis. These findings led us to further investigate when these asymmetries arise. In this work, we show that the asymmetrical distribution of Notch1 protein and mRNA precedes cortical rotation and even fertilization in X. laevis. Moreover, we found that in unfertilized eggs transcripts encoded by the ventralizing gene bmp4 are also asymmetrically distributed in the animal hemisphere and notch1 transcripts accumulate consistently on the same side of the eccentric maturation point. Strikingly, a Notch1 asymmetry orthogonal to the animal-vegetal axis appears during X. laevis oogenesis. Thus, we show for the first time a maternal bias in the distribution of molecules that are later involved in ventral patterning during embryonic axialization, strongly supporting the hypothesis of a dorsoventral prepattern or intrinsic bilaterality of Xenopus eggs before fertilization.

Published

2024

143. Evaluating the fatigue life of notched components based on the stress gradient model with variable support effects

Author

Zhuo Zhou, Andri Andriyana, Deqing Guan, and Jian Chen

Subjects

Notch, Fatigue life, Size effect, Relative stress gradient, Support effect, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

As the notch location of engineered components suffers from size effect, thereby making it difficult to accurately predict the fatigue life of engineered components. This study briefly analyses the limitations of the traditional relative stress gradient model for analyzing the fatigue life of notched members. Subsequently, a relative stress gradient model with variable support effects is proposed. The fatigue data of various notched specimens with different materials were employed to verify the performance of the proposed model for size effect. The results show that the proposed model has satisfactory predictive performance. Compared with the conventional relative stress gradient model and critical distance method, the proposed model exhibited superior predictive capabilities.

Published

2024

144. β-cell Jagged1 is sufficient but not necessary for islet Notch activity and insulin secretory defects in obese mice

Author

Nina Suda, Alberto Bartolomé, Jiani Liang, Jinsook Son, Yoko Yagishita, Christian Siebel, Domenico Accili, Hongxu Ding, and Utpal B. Pajvani

Subjects

Notch, Jagged1, Beta cell, Alpha cell, Insulin secretion, Diabetes, Internal medicine, RC31-1245

Abstract

Objective: Notch signaling, re-activated in β cells from obese mice and causal to β cell dysfunction, is determined in part by transmembrane ligand availability in a neighboring cell. We hypothesized that β cell expression of Jagged1 determines the maladaptive Notch response and resultant insulin secretory defects in obese mice. Methods: We assessed expression of Notch pathway components in high-fat diet-fed (HFD) or leptin receptor-deficient (db/db) mice, and performed single-cell RNA sequencing (scRNA-Seq) in islets from patients with and without type 2 diabetes (T2D). We generated and performed glucose tolerance testing in inducible, β cell-specific Jagged1 gain-of- and loss-of-function mice. We also tested effects of monoclonal neutralizing antibodies to Jagged1 in glucose-stimulated insulin secretion (GSIS) assays in isolated islets. Results: Jag1 was the only Notch ligand that tracked with increased Notch activity in HFD-fed and db/db mice, as well as in metabolically-inflexible β cells enriched in patients with T2D. Neutralizing antibodies to block Jagged1 in islets isolated from HFD-fed and db/db mice potentiated GSIS ex vivo. To demonstrate if β cell Jagged1 is sufficient to cause glucose tolerance in vivo, we generated inducible β cell-specific Jag1 transgenic (β-Jag1TG) and loss-of-function (iβ-Jag1KO) mice. While forced Jagged1 impaired glucose intolerance due to reduced GSIS, loss of β cell Jagged1 did not protect against HFD-induced insulin secretory defects. Conclusions: Jagged1 is increased in islets from obese mice and in patients with T2D, and neutralizing Jagged1 antibodies lead to improved GSIS, suggesting that inhibition of Jagged1-Notch signaling may have therapeutic benefit. However, genetic loss-of-function experiments suggest that β cells are not a likely source of the Jagged1 signal.

Published

2024

145. The role of MAPK, notch and Wnt signaling pathways in papillary thyroid cancer: Evidence from a systematic review and meta-analyzing microarray datasets employing bioinformatics knowledge and literature

Author

Elham Amjad, Solmaz Asnaashari, Ali Jahanban-Esfahlan, and Babak Sokouti

Subjects

Signaling pathway, Papillary thyroid cancer (PTC), Gene biomarker, MAPK, NOTCH, Wnt, Biology (General), QH301-705.5, Biochemistry, QD415-436

Abstract

Papillary thyroid cancer (PTC) is a prevalent kind of thyroid cancer (TC), with the risk of metastasis increasing faster than any other malignancy. So, understanding the role of PTC in pathogenesis requires studying the various gene expressions to find out which particular molecular biomarkers will be helpful. The authors conducted a comprehensive search on the PubMed microarray database and a meta-analysis approach on the remaining ones to determine the differentially expressed genes between PTC and normal tissues, along with the analyses of overall survival (OS) and recurrence-free survival (RFS) rates in patients with PTC. We considered the associated genes with MAPK, Wnt, and Notch signaling pathways. Two GEO datasets have been included in this research, considering inclusion and exclusion criteria. Nineteen genes were found to have higher differences through the meta-analysis procedure. Among them, ten genes were upregulated, and nine genes were downregulated. The expression of 19 genes was examined using the GEPIA2 database, and the Kaplan-Meier plot statistics were used to analyze RFS and the OS rates. We discovered seven significant genes with the validation: PRICKLE1, KIT, RPS6KA5, GADD45B, FGFR2, FGF7, and DTX4. To further explain these findings, it was discovered that the mRNA expression levels of these seven genes and the remaining 12 genes were shown to be substantially linked with the results of the experimental literature investigations on the PTC. Our research found nineteen panels of genes that could be involved in the PTC progression and metastasis and the immune system infiltration of these cancers.

Published

2024

146. Lactate receptor GPR81 drives breast cancer growth and invasiveness through regulation of ECM properties and Notch ligand DLL4

Author

Kathrine Lundø, Oksana Dmytriyeva, Louise Spøhr, Eliana Goncalves-Alves, Jiayi Yao, Laia P. Blasco, Mette Trauelsen, Muthulakshmi Ponniah, Marc Severin, Albin Sandelin, Marie Kveiborg, Thue W. Schwartz, and Stine F. Pedersen

Subjects

HCAR1, Tumor microenvironment, Spheroid, EPHA7, PCDH7, Notch, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background The lactate receptor GPR81 contributes to cancer development through unclear mechanisms. Here, we investigate the roles of GPR81 in three-dimensional (3D) and in vivo growth of breast cancer cells and study the molecular mechanisms involved. Methods GPR81 was stably knocked down (KD) in MCF-7 human breast cancer cells which were subjected to RNA-seq analysis, 3D growth, in situ- and immunofluorescence analyses, and cell viability- and motility assays, combined with KD of key GPR81-regulated genes. Key findings were additionally studied in other breast cancer cell lines and in mammary epithelial cells. Results GPR81 was upregulated in multiple human cancer types and further upregulated by extracellular lactate and 3D growth in breast cancer spheroids. GPR81 KD increased spheroid necrosis, reduced invasion and in vivo tumor growth, and altered expression of genes related to GO/KEGG terms extracellular matrix, cell adhesion, and Notch signaling. Single cell in situ analysis of MCF-7 cells revealed that several GPR81-regulated genes were upregulated in the same cell clusters. Notch signaling, particularly the Notch ligand Delta-like-4 (DLL4), was strikingly downregulated upon GPR81 KD, and DLL4 KD elicited spheroid necrosis and inhibited invasion in a manner similar to GPR81 KD. Conclusions GPR81 supports breast cancer aggressiveness, and in MCF-7 cells, this occurs at least in part via DLL4. Our findings reveal a new GPR81-driven mechanism in breast cancer and substantiate GPR81 as a promising treatment target.

Published

2023

147. The meaning of ubiquitylation of the DSL ligand Delta for the development of Drosophila

Author

Tobias Troost, Ekaterina Seib, Alina Airich, Nicole Vüllings, Aleksandar Necakov, Stefano De Renzis, and Thomas Klein

Subjects

Cell communication, Notch, Delta, DSL-ligands, Ubiquitylation, E3-ligase, Biology (General), QH301-705.5

Abstract

Abstract Background Ubiquitylation (ubi) of the intracellular domain of the Notch ligand Delta (Dl) by the E3 ligases Neuralized (Neur) and Mindbomb1 (Mib1) on lysines (Ks) is thought to be essential for the its signalling activity. Nevertheless, we have previously shown that DlK2R-HA, a Dl variant where all Ks in its intracellular domain (ICD) are replaced by the structurally similar arginine (R), still possess weak activity if over-expressed. This suggests that ubi is not absolutely required for Dl signalling. However, it is not known whether the residual activity of DlK2R-HA is an effect of over-expression and, if not, whether DlK2R can provide sufficient activity for the whole development of Drosophila. Results To clarify these issues, we generated and analysed Dl attP -DlK2R-HA, a knock-in allele into the Dl locus. Our analysis of this allele reveals that the sole presence of one copy of Dl attP -DlK2R-HA can provide sufficient activity for completion of development. It further indicates that while ubi is required for the full activity of Dl in Mib1-dependent processes, it is not essential for Neur-controlled neural development. We identify three modes of Dl signalling that are either dependent or independent of ubi. Importantly, all modes depend on the presence of the endocytic adapter Epsin. During activation of Dl, direct binding of Epsin appears not to be an essential requirement. In addition, our analysis further reveals that the Ks are required to tune down the cis-inhibitory interaction of Dl with Notch. Conclusions Our results indicate that Dl can activate the Notch pathway without ubi of its ICD. It signals via three modes. Ubi is specifically required for the Mib1-dependent processes and the adjustment of cis-inhibition. In contrast to Mib1, Neur can efficiently activate Dl without ubi. Neur probably acts as an endocytic co-adapter in addition to its role as E3 ligase. Endocytosis, regulated in a ubi-dependent or ubi-independent manner is required for signalling and also suppression of cis-inhibition. The findings clarify the role of ubi of the ligands during Notch signalling.

Published

2023

148. Hsa_circRNA_102051 regulates colorectal cancer proliferation and metastasis by mediating Notch pathway

Author

Zhongsheng Chen, Haiyu Cheng, Jiandong Zhang, Dongbing Jiang, Gang Chen, Shunkang Yan, Wen Chen, and Wei Zhan

Subjects

Hsa_circRNA_102051, miR-203a, BPTF, Notch, Colorectal cancer, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Cytology, QH573-671

Abstract

Abstract Background The purpose of this study was to investigate the role of hsa_circRNA_102051 in colorectal cancer (CRC) and its effect on the stemness of tumor cells. Methods CircRNA microarray was under analysis to screen differentially expressed novel circRNAs in the pathology of CRC. Quantitative real-time PCR was used to detect the relative RNA expression in CRC cells and samples. The effects of hsa_circRNA_102051 on biological functions in CRC cells were accessed both in vitro and in vivo. FISH, RIP and luciferase reporter assay were conducted to confirm the regulatory correlations between hsa_circRNA_102051 and miR-203a, as well as miR-203a and BPTF. Xenograft models were applied to further verify the impacts and fluctuations of hsa_circRNA_102051/miR-203a/BPTF. Moreover, the mechanism how hsa_circRNA_102051 affected the Notch signals was also elucidated. Results Hsa_circRNA_102051 was up-regulated in CRC tissues and cell lines, capable to promote the growth and invasion of CRC. In addition, hsa_circRNA_102051 could enhance stemness of CRC cells. BPTF was identified as downstream factors of hsa_circRNA_102051, and miR-203a was determined directly targeting both hsa_circRNA_102051 and BPTF as an intermediate regulator. Hsa_circRNA_102051 in CRC could block miR-203a expression, and subsequently activated BPTF. Hsa_circRNA_102051/miR-203a/BPTF axis modulated stemness of CRC cells by affecting Notch pathway. Conclusions Our findings provided new clues that hsa_circRNA_102051 might be a potential predictive or prognostic factor in CRC, which induced the fluctuation of downstream miR-203a/BPTF, and subsequently influenced tumor growth, activities and stemness. Thereinto, the Notch signals were also involved. Hence, the hsa_circRNA_102051/miR-203a/BPTF axis could be further explored as a therapeutic target for anti-metastatic therapy in CRC patients.

Published

2023

149. Fracture Load Estimations for U-Notched and V-Notched 3D Printed PLA and Graphene-Reinforced PLA plates using the ASED Criterion

Author

Marcos S�nchez, Sergio Arrieta, and Sergio Cicero�

Subjects

fracture, pla, graphene, plate, additive manufacturing, notch, ased, Mechanical engineering and machinery, TJ1-1570, Structural engineering (General), TA630-695

Abstract

This paper addresses the estimation of critical loads in FFF (Fused Filament Fabrication) printed polymers and composites containing notches. Particularly, the analysis is focused on the fracture load estimations of 39 PLA (polylactic acid) and 39 graphene reinforced PLA (PLA-Gr) printed plates containing two different types of notches (U- and V-notches) and combining different plate thicknesses and defect length to plate width (a/W) ratios. The addition of graphene (1 wt.%) increases both the yield stress and the ultimate tensile strength, also reducing the strain at rupture and, thus, generating a material whose behavior is closer to linear elasticity. Among the different assessment tools that may be used to estimate critical loads, this work applies the well-known Averaged Strain Energy Density (ASED) criterion, which compares the averaged strain energy over a certain control volume at the notch tip with the corresponding critical value, the latter being a material property. This approach has a linear-elastic nature, so its application to non-fully linear materials may require the use of specific corrections or calibrations. For the two materials analyzed here, PLA and PLA-Gr, it has been observed that the ordinary linear-elastic ASED criterion provides good estimations for the PLA-Gr material, whereas the pristine PLA, with more evident non-linear behavior, the obtainment of accurate results requires a previous specific calibration of the ASED material parameters

Published

2023

150. Fucosyltransferase 9 promotes neuronal differentiation and functional recovery after spinal cord injury by suppressing the activation of Notch signaling

Author

Chen Jiewen, Zeng Xiaolin, Zhang Wenwu, Li Gang, Zhong Haoming, Xu Chengzhong, Li Xiang, and Lin Tao

Subjects

neural stem cells, neuronal differentiation, neural stem cell transplantation, Notch, Wnt, fucosyltransferase, Biochemistry, QD415-436, Genetics, QH426-470

Abstract

Individuals with spinal cord injury (SCI) suffer from permanent disabilities such as severe motor, sensory and autonomic dysfunction. Neural stem cell transplantation has proven to be a potential strategy to promote regeneration of the spinal cord, since NSCs can produce neurotrophic growth factors and differentiate into mature neurons to reconstruct the injured site. However, it is necessary to optimize the differentiation of NSCs before transplantation to achieve a better regenerative outcome. Inhibition of Notch signaling leads to a transition from NSCs to neurons, while the underlying mechanism remains inadequately understood. Our results demonstrate that overexpression of fucosyltransferase 9 (Fut9), which is upregulated by Wnt4, promotes neuronal differentiation by suppressing the activation of Notch signaling through disruption of furin-like enzyme activity during S1 cleavage. In an in vivo study, Fut9-modified NSCs efficiently differentiates into neurons to promote functional and histological recovery after SCI. Our research provides insight into the mechanisms of Notch signaling and a potential treatment strategy for SCI.

Published

2023